Prof. Mansoor Anbia | Analytical Chemistry | Best Researcher Award

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Prof. Mansoor Anbia | Analytical Chemistry | Best Researcher Award

Prof. Mansoor Anbia ,  Analytical Chemistry , Academician/Research Scholar at Iran university od science and technology , Iran

Prof. Mansoor Anbia is a distinguished Professor of Analytical Chemistry at the Iran University of Science and Technology. He specializes in the synthesis and application of nanomaterials, particularly for environmental monitoring and catalysis. With a Ph.D. in Analytical Chemistry, Prof. Anbia has led 365 research projects, published 249 articles in reputed journals, authored five books, and contributed significantly to industrial consultancy with over 70 projects. His editorial appointments include the Journal of Chemical Reviews and the Asian Journal of Nanoscience and Materials. As president of international chemistry congresses and head of various national committees, he bridges academia and industry with a commitment to applied innovation. Prof. Anbia’s pioneering work on nanostructured materials has gained global recognition, earning him an h-index of 38. Through his research and leadership, he continues to advance scientific understanding and real-world application in nanochemistry and analytical science.

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Summary of Suitability for Award:

Prof. Mansoor Anbia stands out as an exceptionally qualified candidate for the Best Researcher Award due to his prolific academic contributions, innovative research, and leadership in scientific and industrial domains. With 249 publications in high-impact journals, 365 completed or ongoing research projects, and five authored books, his scholarly output is not only vast but also highly influential, evidenced by his citation index (h-index) of 38.  Additionally, Prof. Anbia has bridged academia and industry through 71 consultancy projects and multiple prestigious appointments, including editorial board roles, presidency of international congresses, and national scientific advisory positions. His consistent leadership in national science policy, industrial applications, and interdisciplinary collaborations positions him as a role model for emerging researchers. Prof. Mansoor Anbia is highly suitable for the “Best Researcher Award”. His pioneering work in nanochemistry and analytical science, combined with extensive scholarly output and industrial impact, exemplifies the highest standards of research excellence. He fulfills all major criteria—productivity, innovation, societal relevance, and academic leadership—and thus represents an ideal recipient of this distinguished honor.

🎓Education:

Prof. Mansoor Anbia holds a Ph.D. in Analytical Chemistry with a specialization in nanomaterials. During his doctoral studies, he conducted advanced research on nanostructures and their applications in analytical techniques. He worked closely with a renowned expert in nanotechnology, gaining interdisciplinary expertise across materials science, instrumental analysis, and catalysis. His academic journey focused on developing methods for environmental monitoring, pollutant removal, and industrial process optimization. As a doctoral researcher, he published extensively and served as first author in many high-impact journals. His academic training provided a robust foundation in research design, experimental techniques, and scientific communication. His education also equipped him with advanced skills in synthesis, characterization, and application of porous nanomaterials, shaping his long-term research directions. Prof. Anbia’s academic background remains integral to his ongoing success as a scholar, mentor, and innovator in the field of nanoscience and analytical chemistry.

🏢Work Experience:

Prof. Mansoor Anbia brings decades of experience in academia, industrial consultancy, and scientific leadership. As a Professor of Analytical Chemistry at the Iran University of Science and Technology, he has supervised numerous Ph.D. scholars and led 365 completed or ongoing research projects. With 71 consultancy and industrial collaborations, he has contributed extensively to environmental and industrial applications of nanomaterials. His responsibilities span teaching, research, innovation, and international cooperation. Prof. Anbia also serves in leadership roles: Director of the Oil Industry Relations Office, Head of the Center for Silicon Chemistry Technology, and Chair of national research committees. His editorial involvement and presidency of international congresses further reflect his global engagement. Across his career, he has integrated scientific rigor with practical innovation, contributing significantly to environmental remediation, catalysis, and industrial processes. His career exemplifies a synergy of academic excellence and applied science.

🏅Awards: 

Prof. Mansoor Anbia’s exceptional career has earned him several accolades and prestigious appointments. He is the President of the International Congress of Chemistry and Nanochemistry, reflecting his global stature. He has been a key member of multiple national scientific boards including the Specialized Commission on Basic Sciences, and the Iranian Water and Wastewater Industry Book Review Committee. Prof. Anbia has played a pivotal role in government and industrial policy through his position on the Research Committee of the Iranian Water Resources Management Technology Company. As Head of the Center for Coordination of Silicon and Organosilicon Chemistry Technology, his contributions are widely acknowledged in both academic and industrial circles. These honors affirm his impact on science policy, education, and real-world problem solving. Through his dedication to scientific excellence and interdisciplinary innovation, he continues to influence the future of analytical chemistry and nanotechnology.

🔬Research Focus:

Prof. Mansoor Anbia’s research centers on the synthesis and application of nanostructured and nanoporous materials for environmental and industrial uses. He focuses on developing novel adsorbents and catalysts with enhanced efficiency for the removal of organic and inorganic pollutants from industrial effluents. His work also targets energy and environmental sustainability by engineering nano-based systems applicable in water treatment and industrial plants. He integrates advanced analytical techniques for characterization and performance evaluation of materials. Prof. Anbia’s studies span method development, instrumental analysis, and real-world application, particularly in the oil and petrochemical sectors. His collaborative efforts in interdisciplinary projects strengthen the link between chemistry, environmental science, and industrial engineering. Through innovations in functionalized nanomaterials, his research aims to solve pressing environmental issues while advancing the field of green and analytical chemistry.

Publication Top Notes:

1. Superhydrophobic magnetic melamine sponge modified by flowerlike ZnO and stearic acid using dip coating method for oil and water separation

2. Investigation of sol-gel derived organic-inorganic hybrid coatings based on commercial epoxy resin for improved corrosion resistance of 304 stainless steel

Citations: 1

3. Kinetic and isotherm studies of Cr(VI) adsorption from aqueous media by using a synthetic chitosan-allophane nanocomposite

4. Synergetic effect of heteroatoms doping and functional groups of graphene-chitosan magnetic nanocomposite on enhancement of heavy metal sorption

Citations: 1

5. Chitosan and carboxymethyl cellulose coated on NH₂-UiO-66 for levofloxacin delivery: A comparative study

6. MIL-101(Fe)- and MIL-101(Fe)-NH₂-loaded thin film nanofiltration membranes for removal of fluoxetine hydrochloride from pharmaceutical wastewater

Citations: 1

7. Investigating the catalytic performance of polyoxometalate immobilized on magnetic chitosan in oxidative desulfurization

Citations: 3

8. Modification of melamine and polyurethane sponges with vinyl triethoxysilane-graphene nanocomposite as superhydrophobic absorbents for oil-water separation

9. Machine learning-based prediction and experimental validation of Cr(VI) adsorption capacity of chitosan-based composites

10. Green synthesis of magnetic graphene-like biochar with oxygen vacancies for efficient adsorption and degradation of emerging antivirals from water

Citations: 4

 

Prof. Dr. Mahmoud Omar | Analytical Chemistry | Best Researcher Award

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Prof. Dr. Mahmoud Omar | Analytical Chemistry | Best Researcher Award

Prof. Dr. Mahmoud Omar , Faculty of pharmacy, Taibah University , Egypt

Dr. Mahmoud Ahmed Omar Hassan is a distinguished Professor specializing in Pharmacognosy and Pharmaceutical Chemistry. Currently serving at the College of Pharmacy, Taibah University, Saudi Arabia, he brings extensive expertise in analytical chemistry and pharmaceutical sciences. His research emphasizes innovative analytical methods and the determination of pharmaceutical compounds in diverse matrices. With over two decades of teaching and research, Dr. Hassan has significantly contributed to pharmacy education, mentoring students in analytical and pharmaceutical chemistry. He is widely published, with impactful work on spectro fluorimetry, spectrophotometry, chromatography, and voltammetry. His contributions enhance drug quality assurance and pharmaceutical analysis.

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Summary of Suitability for Award:

Dr. Mahmoud Ahmed Omar Hassan is an exemplary candidate for the “Best Researcher Awards” due to his extensive contributions to pharmaceutical analytical chemistry. With over 25 years of experience in academia and research, he has demonstrated unparalleled expertise in developing innovative analytical methods. His research addresses critical challenges in drug analysis, including determination in pharmaceutical formulations and biological fluids, with a strong focus on green chemistry and quality assurance. Dr. Hassan’s prolific publication record includes high-impact articles in peer-reviewed journals, showcasing groundbreaking work in spectrofluorimetry, chromatography, and photoluminescence. He has also been a mentor and educator, teaching advanced courses and shaping future scientists.

🎓Education:

Dr. Mahmoud Ahmed Omar Hassan holds a Ph.D. in Pharmaceutical Sciences (Pharmaceutical Analytical Chemistry) from Minia University, Egypt, completed in 2005. His doctoral research emphasized advanced analytical techniques for pharmaceutical applications. He earned his Master’s degree in Pharmaceutical Sciences (Pharmaceutical Analytical Chemistry) from Assiut University, Egypt, in 1999, focusing on drug analysis and quality control. He began his academic journey with a Bachelor’s degree in Pharmaceutical Sciences from Al-Azhar University, Egypt, in 1994. His comprehensive educational foundation underpins his expertise in analytical chemistry, making him a leader in pharmaceutical education and research.

🏢Work Experience:

Dr. Hassan’s career spans over 25 years in academia and research. He started as a Demonstrator at Al-Azhar University in 1995, progressing to Associate Lecturer by 1999. He joined Minia University in 1999, where he served as an Assistant Professor until 2010, later becoming an Associate Professor (2010–2015) and Professor (2015–2019). In 2019, he joined Taibah University, Saudi Arabia, as a Professor in the Pharmacognosy and Pharmaceutical Chemistry Department, where he teaches pharmaceutical analytical chemistry and technology courses. His vast teaching experience and mentorship have shaped future leaders in pharmaceutical sciences.

🏅Awards: 

Dr. Hassan has been recognized for his contributions to pharmaceutical sciences and education. He received accolades for research excellence at Minia University and was honored at Taibah University for advancing pharmaceutical analysis techniques. His innovative teaching methods and mentorship earned him recognition from students and academic institutions alike. Dr. Hassan’s achievements reflect his dedication to advancing analytical chemistry and his impactful role in enhancing pharmaceutical education and research.

🔬Research Focus:

Dr. Hassan specializes in developing innovative analytical methods for pharmaceutical analysis. His work focuses on determining drugs in pure forms, pharmaceutical formulations, and biological fluids using advanced techniques like spectrofluorimetry, spectrophotometry, voltammetry, and chromatography. He is committed to promoting green analytical chemistry and improving drug quality assurance practices. His research aims to address global challenges in pharmaceutical analysis, ensuring the efficacy and safety of drugs.

Publication Top Notes:

Use of charge-transfer complexation in the spectrophotometric analysis of certain cephalosporins

Authors: GA Saleh, HF Askal, MF Radwan, MA Omar

Citations: 159

Year: 2001

Kinetic spectrofluorimetric determination of certain cephalosporins in human plasma

Authors: MA Omar, OH Abdelmageed, TZ Attia

Citations: 88

Year: 2009

Development and validation of HPLC method for simultaneous determination of amlodipine, valsartan, hydrochlorothiazide in dosage form and spiked human plasma

Authors: EG Samya M, A Osama H, D Sayed M

Citations: 77

Year: 2012

Validated spectrofluorimetric method for determination of selected aminoglycosides

Authors: MA Omar, HM Ahmed, MA Hammad, SM Derayea

Citations: 54

Year: 2015

Development of spectrofluorimetric method for determination of certain aminoglycoside drugs in dosage forms and human plasma through condensation with ninhydrin and phenyl

Authors: MA Omar, MA Hammad, DM Nagy, AA Aly

Citations: 51

Year: 2015

Development and validation of a new spectrofluorimetric method for the determination of some beta-blockers through fluorescence quenching of eosin Y. Application to content

Authors: SM Derayea, MA Omar, MAK Abdel-Lateef, AI Hassan

Citations: 48

Year: 2016

Spectrophotometric and spectrofluorimetric determination of certain diuretics through ternary complex formation with eosin and lead (II)

Authors: MA Omar

Citations: 42

Year: 2010

Kinetic spectrophotometric determination of certain cephalosporins in pharmaceutical formulations

Authors: MA Omar, OH Abdelmageed, TZ Attia

Citations: 37

Year: 2009

Validated spectrophotometric methods for determination of certain aminoglycosides in pharmaceutical formulations

Authors: MA Omar, DM Nagy, MA Hammad, AA Aly

Citations: 35

Year: 2013

Studying the association complex formation of atomoxetine and fluvoxamine with eosin Y and its application in their fluorimetric determination

Authors: SM Derayea, MA Omar, AA Abu-Hassan

Citations: 33

Year: 2018

 

 

 

 

 

 

Assist. Prof. Dr. HamidReza Mirzaei | Mass Spectrometry | Best Researcher Award

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Assist. Prof. Dr. HamidReza Mirzaei | Mass Spectrometry | Best Researcher Award

Assist. Prof. Dr. HamidReza Mirzaei , Nuclear Science and Technology Research Institute (NSTRI) , Iran

Dr. H. R. Mirzaei is an Associate Professor specializing in ion sources and accelerators, currently affiliated with the Nuclear Science and Technology Research Institute (NSTRI) in Tehran, Iran. With a strong academic and research foundation in plasma physics and nuclear engineering, he has been instrumental in advancing the field of electrostatic accelerators and ion source technologies. His expertise extends to plasma simulations and the design of RF and microwave ion sources. Dr. Mirzaei’s contributions include collaboration on the construction of a 150 keV electrostatic accelerator and the development of cutting-edge plasma and ion source systems. He has authored numerous research publications in high-impact journals, focusing on plasma science, simulation, and experimental physics. As a member of the Van de Graaff Laboratory, he remains deeply involved in advancing accelerator technology for various scientific and industrial applications.

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Summary of Suitability for Award:

Dr. H. R. Mirzaei’s exceptional achievements, innovative research, and dedication to advancing plasma physics and accelerator technology make him a highly suitable candidate for the “Best Researcher Awards.” His work not only demonstrates scientific rigor but also practical applications, reflecting the award’s emphasis on research excellence and societal impact. Recognizing Dr. Mirzaei would honor his substantial contributions to science and inspire continued innovation in the field.His contributions include the successful construction of a 150 keV electrostatic accelerator, the design of innovative plasma simulation systems, and groundbreaking studies on overdense plasma in ECR ion sources. With a robust academic background in nuclear engineering and electrical engineering, he has published extensively in high-impact journals, advancing the understanding of plasma science and its applications.

🎓Education:

Dr. H. R. Mirzaei pursued his academic journey with a Bachelor of Science in Electrical Engineering from Zanjan University, Iran. Building on his foundational knowledge in engineering, he earned a Master of Science in Nuclear Engineering from Amirkabir University, Tehran. His passion for plasma and accelerator technologies led him to complete a Ph.D. in Nuclear Engineering at the same institution in 2013. Throughout his education, Dr. Mirzaei focused on the intersection of plasma physics and nuclear engineering, honing his expertise in ion sources, electrostatic accelerators, and advanced simulation techniques. His academic achievements laid the groundwork for a successful career in research and development in the field of plasma and accelerator physics.

🏢Work Experience:

Dr. Mirzaei has amassed extensive experience in plasma physics and accelerator technologies. He has been pivotal in the development and construction of a 150 keV electrostatic accelerator and played a significant role in designing and constructing RF and microwave-based ion sources. His expertise has been instrumental in advancing the Van de Graaff Laboratory’s capabilities, where he is an active member. Dr. Mirzaei’s professional endeavors also include leading simulation studies of overdense plasma, optimizing plasma startup methods in tokamaks, and developing resonant plasma sources for space plasma simulation chambers. His collaborative efforts span diverse projects, integrating theoretical, simulation, and practical expertise to innovate in ion source and electrostatic accelerator technologies.

🏅Awards: 

Dr. Mirzaei has received recognition for his outstanding contributions to plasma physics and accelerator research. His efforts in developing the Taban Tokamak and pioneering ion source technologies have earned accolades within the scientific community. He has been invited to present his work at numerous international conferences and has received awards for his contributions to accelerator physics and plasma simulation techniques. Additionally, Dr. Mirzaei’s innovative approaches to plasma source optimization and RF power design have led to notable achievements in the field, further solidifying his reputation as a leading expert in ion source and electrostatic accelerator development.

🔬Research Focus:

Dr. Mirzaei’s research focuses on plasma physics, ion source development, and electrostatic accelerators. His work includes designing advanced RF and microwave plasma sources, optimizing plasma startup techniques for tokamaks, and performing simulation studies of overdense plasma in electron cyclotron resonance (ECR) ion sources. He is particularly interested in the practical applications of ion sources in accelerators, including their use in space plasma simulation chambers and industrial processes. His ongoing projects aim to bridge the gap between theoretical models and experimental implementations, contributing to advancements in accelerator and plasma science.

Publication Top Notes:

Analytical solution versus the Monte Carlo simulation for studying the H+ beam neutralization in H2 gas target neutralizer

Authors: Masoumzadeh, A., Habibi, M., Mirzaei, H.R.

Citations: 0

Year: 2024

Design and simulation of an S-Band tunable solid-state power amplifier as an RF injector into a miniature ECR ion source

Authors: Rahimpour, H., Mirzaei, H., Satri, M.Y., Mobaraki, Z.R.

Citations: 0

Year: 2022

Simulation of ionospheric heating in Iran coordinates with SAMI2 model

Authors: Mirzaei, H., Asadnejad, R., Mahdavi, H., Mohammadiha, A., Kazemi, M.

Citations: 0

Year: 2022

Analysis and design of microwave resonant plasma source for Iranian Space Plasma Simulation Chamber

Authors: Mirzaei, H.R., Kazemi, M., Etaati, G., Kafshgari, M.K., Jelodar, H.R.

Citations: 1

Year: 2022

Analysis and design of a 2.45 GHz RF power source for a miniature electron cyclotron resonance ion source

Authors: Rahimpour, H., Mirzaei, H., Satri, M.Y.

Citations: 1

Year: 2022

The Effect of Removing the High Power Pulse Transformer on the Microwave Pulse Duration in the Preionization Phase in Taban Tokamak

Authors: Rostamifard, D., Amrollahi, R., Iraji, D., Mirzaei, H.

Citations: 0

Year: 2020

Optimizing the Plasma startup through ECR plasma pre-ionization in Taban Tokamak via Triple Langmuir probe

Authors: Mirzaei, H.R., Amrollahi, R., Ghasemi, M.

Citations: 6

Year: 2020

First Results and Plasma Current Start-Up in Taban Tokamak

Authors: Mirzaei, H.R., Amrollahi, R.

Citations: 2

Year: 2019

Observation and investigation of runaway electrons in the start-up phase of Taban Tokamak

Authors: Mirzaei, H., Amrollahi, R., Iraji, D., Rostamifard, D.

Citations: 1

Year: 2019

Alborz tokamak system engineering and design

Authors: Amrollahi, R., Iraji, D., Ghasemi, M., Omrani, M., Souri, S.

Citations: 5

Year: 2019

 

 

 

 

Assoc. Prof. Dr. Sherif Shawky | Analytical Chemistry Award | Best Researcher Award

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Assoc. Prof. Dr. Sherif Shawky | Analytical Chemistry Award | Best Researcher Award

Assoc. Prof. Dr. Sherif Shawky , Misr Univeristy For Science and Technology , Egypt 

Assoc. Prof. Dr. Sherif Shawky is an expert in cell biology, nanobiotechnology, and molecular diagnostics. With a background in pharmacy and biotechnology, he has held faculty and research positions at leading institutions, including the University of Connecticut, Misr University for Science and Technology, and Zewail City of Science and Technology. His work focuses on CRISPR-based assays, nanoparticles, and microfluidic platforms for early disease detection, particularly for cancers, viral infections, and neurodegenerative diseases. Dr. Shawky has been involved in numerous research projects and has contributed significantly to both academia and entrepreneurship. He has been awarded prestigious fellowships, including the Royal Academy of Engineering’s Leaders Innovation Fellowship, and has mentored many students and professionals in the field.

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Summary of Suitability for Award:

Assoc. Prof. Dr. Sherif Shawky is highly suitable for the “Best Researcher Awards” due to his remarkable contributions to the fields of cell biology, nanobiotechnology, and molecular diagnostics. He holds a Ph.D. in Cell Biology and Nanobiotechnology from Erasmus University Rotterdam, Netherlands, and has an extensive background in the development of advanced diagnostic tools, specifically focusing on diseases like Hepatitis C, Alzheimer’s, and various types of cancer. His innovative work in the design and application of nanomaterials, including nanoparticles (such as silica, gold, magnetic, and carbon dots), in biosensors and point-of-care diagnostic devices has had a significant impact on early detection and quantification of biomarkers related to cancer, liver diseases, and neurodegenerative conditions.

🎓Education:

Assoc. Prof. Dr. Sherif  Shawky  earned his Ph.D. in Cell Biology and Nanobiotechnology from Erasmus University Rotterdam, Netherlands . He also holds a Master’s in Biomolecular Sciences from the Free University Amsterdam, specializing in Molecular Cell Biology . He completed his Bachelor of Pharmacy at Misr University for Science and Technology, Egypt. His academic journey has been marked by significant research contributions in the areas of molecular diagnostics, drug delivery, and biosensors, culminating in innovative diagnostic technologies.

🏢Work Experience:

Assoc. Prof. Dr. Sherif  Shawky  has extensive experience as a Research Assistant Professor at the University of Connecticut (UCONN), working on CRISPR-based assays for Alzheimer’s disease diagnosis. He is an Associate Professor of Biochemistry and Entrepreneurship at Misr University for Science and Technology, where he focuses on the development of smart drug delivery systems. His postdoctoral work at Zewail City involved pioneering nanoparticle-based assays for the detection of viral RNA and cancer biomarkers. He is also a Visiting Scholar at Zewail City, where he leads cutting-edge diagnostics projects.

🏅Awards:

Assoc. Prof. Dr. Sherif  Shawky  has received several prestigious awards for his research and entrepreneurial initiatives. He was selected as a Fellow by the Royal Academy of Engineering, where he also secured second place in the final pitch of the Leaders Innovation Fellowship. His entrepreneurial skills were further recognized when he won first place in the final pitch of the Innovate Egypt Program, a joint initiative by VENTUREWELL, USAID, and the National Academy of Science. Shawky’s innovative contributions have also earned him a mentorship role in various incubators and pre-incubators in Egypt, where he guides aspiring entrepreneurs. He has been recognized for his work in disability inclusion and reducing inequalities in healthcare. These honors highlight his excellence in both scientific research and entrepreneurial ventures, showcasing his commitment to advancing health technologies, biosensors, and nanotechnology. Shawky’s multifaceted work continues to have a lasting impact in both academia and industry.

🔬Research Focus:

Assoc. Prof. Dr. Sherif  Shawky research focuses on the development of nanotechnology-based diagnostic tools for early disease detection, particularly for cancers, viral infections, and neurodegenerative diseases. He specializes in CRISPR/Cas technology, nanoparticle synthesis, and microfluidic chip design. His work on integrating nanoparticles with electrochemical, fluorescence, and colorimetric techniques has led to innovative point-of-care devices for viral RNA quantification and cancer biomarkers. His efforts aim to revolutionize diagnostic technologies for clinical applications.

Publication Top Notes:

  1. Direct detection of unamplified hepatitis C virus RNA using unmodified gold nanoparticles
    • Citations: 141
  2. Nucleic acids biosensors based on metal-organic framework (MOF): Paving the way to clinical laboratory diagnosis
    • Citations: 112
  3. Gold aggregating gold: a novel nanoparticle biosensor approach for the direct quantification of hepatitis C virus RNA in clinical samples
    • Citations: 85
  4. A novel HCV electrochemical biosensor based on a polyaniline@Ni-MOF nanocomposite
    • Citations: 77
  5. A novel Ag/Zn bimetallic MOF as a superior sensitive biosensing platform for HCV-RNA electrochemical detection
    • Citations: 56

 

Mohamed attia | Analytical Chemistry | Best Researcher Award

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Prof Dr. Mohamed attia | Analytical Chemistry | Best Researcher Award

 Professor at Ain Shams University, Egypt

Prof. Dr. Mohamed Said Attia is a leading analytical chemist and professor at Ain Shams University, where he heads a research group focused on the early diagnosis of diseases using nano-optical sensors. He is also the Director of the Chemical and Biochemical Studies and Consultations Unit. His academic career, marked by a PhD from Ain Shams University and a professorship awarded in 2017, underscores his significant contributions to the fields of analytical chemistry and nanotechnology. His innovative research and extensive publications highlight his impact on cancer diagnosis and environmental monitoring.

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Prof. Attia has achieved an h-index of 29, reflecting his substantial academic impact through both the volume and citation of his work. His prolific output includes 112 papers and 10 books, indicating his extensive influence in analytical chemistry and nanotechnology. These metrics underscore his prominence and contribution to advancing scientific knowledge in his field.

  • Citations: 1,534 citations from 824 documents
  • Documents: 104
  • h-index: 28

Education

Prof. Attia earned his PhD in analytical chemistry from Ain Shams University in 2006. This advanced degree provided a solid foundation for his subsequent research and academic career, leading to his elevation to a full professorship in 2017. His educational background has been crucial in shaping his expertise and achievements in analytical chemistry.

Research Focus

Prof. Attia’s research primarily involves developing and applying nano-optical sensors for early disease diagnosis, with a particular focus on cancer detection. His work also encompasses analytical photochemistry, nano-photochemistry, and the creation of nano photocatalysts. This focus aims to improve diagnostic techniques and environmental monitoring through advanced sensor technologies.

Professional Journey

Prof. Attia’s professional trajectory includes significant roles in research and academia. He began his career as a lecturer and progressed to a full professor by 2017. Throughout his career, he has led impactful research projects, directed the Chemical and Biochemical Studies and Consultations Unit, and contributed to practical applications in medicine and industry, establishing himself as a leading figure in his field.

Honors & Awards

Prof. Attia has received several prestigious awards recognizing his research contributions. Notably, his project on the green synthesis of magnetic iron oxide nanoparticles won the “2019 Green Chemistry for Life Science” award from PhosAgro/UNESCO/IUPAC. This accolade highlights his outstanding work in green chemistry and his global recognition for advancing scientific and environmental solutions.

Publications Noted & Contributions

Prof. Attia has published extensively, including 10 books and over 112 papers in peer-reviewed journals. His work covers a broad range of topics such as nano-optical sensors and analytical photochemistry. His publications are well-cited and have significantly contributed to the advancement of knowledge in disease diagnostics and environmental applications.

“Polymer-Based Terbium Complex as a Fluorescent Probe for Cancer Antigen 125 Detection: A Promising Tool for Early Diagnosis of Ovarian Cancer”

  • Journal: ACS Omega
  • Publication Date: June 11, 2024
  • DOI: 10.1021/acsomega.4c01814
  • Contributors: Magda M. Mohamed, Hisham Gamal, Akram El-Didamony, Ahmed O. Youssef, Esraa Elshahat, Ekram H. Mohamed, Mohamed S. Attia

“Highly selective optical sensor N/S-doped carbon quantum dots (CQDs) for the assessment of human chorionic gonadotropin β-hCG in the serum of breast and prostate cancer patients”

  • Journal: RSC Advances
  • Publication Date: 2023
  • DOI: 10.1039/D3RA01570J
  • Contributors: Yasmeen M. AlZahrani, Salha Alharthi, Hind A. AlGhamdi, A. O. Youssef, Shahenda S. Ahmed, Ekram H. Mohamed, Safwat A. Mahmoud, Mohamed S. Attia

“Novel sensor for the determination of CA 15-3 in serum of breast cancer patients based on Fe-gallic acid complex doped in modified cellulose polymer thin films”

  • Journal: RSC Advances
  • Publication Date: 2023
  • DOI: 10.1039/D3RA90086J
  • WOSUID: WOS:001156979600001
  • Contributors: Hind A. AlGhamdi, Yasmeen M. AlZahrani, Salha Alharthi, Mohamed S. Mohy-Eldin, Ekram H. Mohamed, Sheta M. Sheta, Said M. El-Sheikh, Safwat A. Mahmoud, Mohamed S. Attia

“Novel sensor for the determination of CA 15-3 in serum of breast cancer patients based on Fe–gallic acid complex doped in modified cellulose polymer thin films”

  • Journal: RSC Advances
  • Publication Date: 2023
  • DOI: 10.1039/D3RA02495D
  • Contributors: Hind A. AlGhamdi, Yasmeen M. AlZahrani, Salha Alharthi, Mohamed S. Mohy-Eldin, Ekram H. Mohamed, Safwat A. Mahmoud, Mohamed S. Attia

“SiO2/Zn0.4Co0.6Fe2O4 aerogel: an efficient and reusable superparamagnetic adsorbent for oily water remediation”

  • Journal: RSC Advances
  • Publication Date: 2023
  • DOI: 10.1039/D3RA03570K
  • Contributors: Fagr A. Shehata, Amer S. El-Kalliny, Mohamed S. Attia, Tarek A. Gad-Allah

Research Timeline

Prof. Attia’s research timeline highlights his significant contributions across various projects. From 2003 to 2005, he worked on the AQUACAT Project, which focused on photo disinfection of water. Between 2006 and 2008, he conducted research on photovoltaics utilizing Polymer/Quantum Dot Composites. The POWESOL Project from 2007 to 2009 explored mechanical power generation using solar energy. In 2015, his research centered on the early diagnosis of ovarian cancer through nano-optical sensors. His 2019 project, recognized with an award, involved the green synthesis of magnetic nanoparticles. Currently, in 2023, he is engaged in ongoing research on biosensors for detecting MRSA in dairy products.

Collaborations and Projects

Prof. Attia’s collaborations span several high-impact international projects. The AQUACAT Project, in partnership with European and North African teams, focused on water photo disinfection. The POWESOL Project aimed at advancing solar thermodynamic power generation. His work with King Abdul-Aziz University (KAU) involved pioneering early cancer diagnosis using nano-optical sensors. Additionally, the PhosAgro/UNESCO/IUPAC Grant supported his research on green chemistry and nanoparticle synthesis. These collaborations underscore his dedication to advancing scientific knowledge through global partnerships and innovative research.

Strengths of the Best Researcher Award

  1. Innovative Research Focus: Prof. Dr. Mohamed Attia’s award-winning research on nano-optical sensors for early disease diagnosis, particularly cancer detection, showcases cutting-edge innovation. This focus on developing advanced diagnostic tools demonstrates his commitment to addressing critical healthcare challenges and advancing the field of analytical chemistry.
  2. Global Recognition and Impact: The recognition through the “2019 Green Chemistry for Life Science” award highlights Prof. Attia’s global impact on green chemistry. His work on green synthesis of magnetic iron oxide nanoparticles is acknowledged internationally, reflecting the significant contributions he has made to both scientific and environmental solutions.
  3. Extensive Publications and Citations: Prof. Attia’s impressive record of 112 papers and 10 books, coupled with an h-index of 29, signifies his substantial influence in the field. The high citation count of 1,534 further underscores the relevance and impact of his research.
  4. Diverse Research Projects: The breadth of Prof. Attia’s research, including projects on photovoltaics, mechanical power generation, and biosensors, illustrates his versatility and ability to tackle various scientific challenges. This diversity enhances his reputation as a leading researcher in analytical chemistry and nanotechnology.
  5. Strong Collaborative Network: His involvement in international projects and collaborations, such as AQUACAT and POWESOL, showcases his ability to work effectively with global teams. These collaborations not only enhance the scope of his research but also contribute to advancements in scientific knowledge through cross-border partnerships.

Areas for Improvement

  1. Publication Consistency: While Prof. Attia has a substantial number of publications, maintaining consistency in publication frequency and addressing potential gaps in research themes could further strengthen his academic profile. This might involve exploring emerging topics or gaps in current research.
  2. Expansion of Research Applications: While his current focus is on cancer diagnosis and environmental monitoring, expanding research applications to other critical areas, such as infectious diseases or agricultural analytics, could diversify the impact of his work and open new avenues for innovation.
  3. Enhanced Outreach and Dissemination: Increasing efforts in outreach and dissemination of research findings, particularly through public engagement or media, could enhance the visibility and societal impact of his work. This could involve organizing public lectures, workshops, or participating in science communication initiatives.
  4. Interdisciplinary Collaboration: Although Prof. Attia has collaborated internationally, further interdisciplinary collaborations with fields such as biomedical engineering, data science, or artificial intelligence could provide new insights and enhance the applicability of his research in different contexts.
  5. Grant Acquisition and Funding: Securing additional grants and funding for new research projects can help support and expand ongoing work. Exploring new funding opportunities and fostering relationships with potential sponsors or industry partners could bolster research capabilities and resources.

Conclusion

Prof. Dr. Mohamed Attia’s recognition as a leading researcher in analytical chemistry is well-deserved, reflecting his innovative research, global impact, and extensive contributions to the field. His award-winning work, notable publications, and collaborative projects underscore his prominence in advancing disease diagnosis and environmental solutions. To further enhance his research impact, focusing on consistent publication, expanding research applications, improving outreach, fostering interdisciplinary collaborations, and securing additional funding could provide valuable opportunities for growth and continued excellence. Prof. Attia’s ongoing dedication and achievements position him as a pivotal figure in his field, with a promising trajectory for future advancements.